mirror of
https://github.com/saitohirga/WSJT-X.git
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d2dc0fdb00
git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@8249 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
338 lines
10 KiB
C++
338 lines
10 KiB
C++
#include "Modulator.hpp"
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#include <limits>
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#include <qmath.h>
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#include <QDateTime>
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#include <QDebug>
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#include "mainwindow.h"
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#include "soundout.h"
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#include "commons.h"
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#include "moc_Modulator.cpp"
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extern float gran(); // Noise generator (for tests only)
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#define RAMP_INCREMENT 64 // MUST be an integral factor of 2^16
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#if defined (WSJT_SOFT_KEYING)
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# define SOFT_KEYING WSJT_SOFT_KEYING
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#else
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# define SOFT_KEYING 1
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#endif
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double constexpr Modulator::m_twoPi;
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// float wpm=20.0;
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// unsigned m_nspd=1.2*48000.0/wpm;
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// m_nspd=3072; //18.75 WPM
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Modulator::Modulator (unsigned frameRate, unsigned periodLengthInSeconds,
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QObject * parent)
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: AudioDevice {parent}
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, m_quickClose {false}
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, m_phi {0.0}
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, m_toneSpacing {0.0}
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, m_fSpread {0.0}
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, m_frameRate {frameRate}
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, m_period {periodLengthInSeconds}
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, m_state {Idle}
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, m_tuning {false}
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, m_cwLevel {false}
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, m_j0 {-1}
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, m_toneFrequency0 {1500.0}
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{
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}
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void Modulator::start (unsigned symbolsLength, double framesPerSymbol,
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double frequency, double toneSpacing,
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SoundOutput * stream, Channel channel,
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bool synchronize, bool fastMode, double dBSNR, int TRperiod)
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{
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Q_ASSERT (stream);
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// Time according to this computer which becomes our base time
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qint64 ms0 = QDateTime::currentMSecsSinceEpoch() % 86400000;
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if (m_state != Idle)
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{
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stop ();
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}
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m_quickClose = false;
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m_symbolsLength = symbolsLength;
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m_isym0 = std::numeric_limits<unsigned>::max (); // big number
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m_frequency0 = 0.;
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m_phi = 0.;
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m_addNoise = dBSNR < 0.;
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m_nsps = framesPerSymbol;
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m_frequency = frequency;
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m_amp = std::numeric_limits<qint16>::max ();
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m_toneSpacing = toneSpacing;
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m_bFastMode=fastMode;
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m_TRperiod=TRperiod;
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unsigned delay_ms = 1920 == m_nsps && 15 == m_period ? 500 : 1000;
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// noise generator parameters
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if (m_addNoise) {
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m_snr = qPow (10.0, 0.05 * (dBSNR - 6.0));
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m_fac = 3000.0;
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if (m_snr > 1.0) m_fac = 3000.0 / m_snr;
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}
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unsigned mstr = ms0 % (1000 * m_period); // ms in period
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// round up to an exact portion of a second that allows for startup
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// delays
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m_ic = (mstr / delay_ms) * m_frameRate * delay_ms / 1000;
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if(m_bFastMode) m_ic=0;
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m_silentFrames = 0;
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// calculate number of silent frames to send, so that audio will start at
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// the nominal time "delay_ms" into the Tx sequence.
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if (synchronize && !m_tuning && !m_bFastMode) {
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m_silentFrames = m_ic + m_frameRate / (1000 / delay_ms) - (mstr * (m_frameRate / 1000));
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}
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initialize (QIODevice::ReadOnly, channel);
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Q_EMIT stateChanged ((m_state = (synchronize && m_silentFrames) ?
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Synchronizing : Active));
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m_stream = stream;
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if (m_stream) m_stream->restart (this);
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}
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void Modulator::tune (bool newState)
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{
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m_tuning = newState;
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if (!m_tuning) stop (true);
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}
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void Modulator::stop (bool quick)
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{
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m_quickClose = quick;
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close ();
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}
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void Modulator::close ()
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{
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if (m_stream)
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{
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if (m_quickClose)
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{
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m_stream->reset ();
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}
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else
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{
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m_stream->stop ();
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}
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}
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if (m_state != Idle)
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{
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Q_EMIT stateChanged ((m_state = Idle));
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}
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AudioDevice::close ();
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}
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qint64 Modulator::readData (char * data, qint64 maxSize)
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{
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double toneFrequency=1500.0;
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if(m_nsps==6) {
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toneFrequency=1000.0;
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m_frequency=1000.0;
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m_frequency0=1000.0;
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}
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if(maxSize==0) return 0;
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Q_ASSERT (!(maxSize % qint64 (bytesPerFrame ()))); // no torn frames
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Q_ASSERT (isOpen ());
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qint64 numFrames (maxSize / bytesPerFrame ());
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qint16 * samples (reinterpret_cast<qint16 *> (data));
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qint16 * end (samples + numFrames * (bytesPerFrame () / sizeof (qint16)));
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qint64 framesGenerated (0);
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switch (m_state)
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{
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case Synchronizing:
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{
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if (m_silentFrames) { // send silence up to first second
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framesGenerated = qMin (m_silentFrames, numFrames);
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for ( ; samples != end; samples = load (0, samples)) { // silence
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}
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m_silentFrames -= framesGenerated;
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return framesGenerated * bytesPerFrame ();
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}
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Q_EMIT stateChanged ((m_state = Active));
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m_cwLevel = false;
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m_ramp = 0; // prepare for CW wave shaping
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}
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// fall through
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case Active:
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{
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unsigned int isym=0;
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// qDebug() << "Mod A" << m_toneSpacing << m_ic;
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if(!m_tuning) isym=m_ic/(4.0*m_nsps); // Actual fsample=48000
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bool slowCwId=((isym >= m_symbolsLength) && (icw[0] > 0)) && (!m_bFastMode);
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if(m_TRperiod==3) slowCwId=false;
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bool fastCwId=false;
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static bool bCwId=false;
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qint64 ms = QDateTime::currentMSecsSinceEpoch();
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float tsec=0.001*(ms % (1000*m_TRperiod));
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if(m_bFastMode and (icw[0]>0) and (tsec>(m_TRperiod-5.0))) fastCwId=true;
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if(!m_bFastMode) m_nspd=2560; // 22.5 WPM
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if(slowCwId or fastCwId) { // Transmit CW ID?
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m_dphi = m_twoPi*m_frequency/m_frameRate;
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if(m_bFastMode and !bCwId) {
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m_frequency=1500; // Set params for CW ID
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m_dphi = m_twoPi*m_frequency/m_frameRate;
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m_symbolsLength=126;
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m_nsps=4096.0*12000.0/11025.0;
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m_ic=2246949;
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m_nspd=2560; // 22.5 WPM
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if(icw[0]*m_nspd/48000.0 > 4.0) m_nspd=4.0*48000.0/icw[0]; //Faster CW for long calls
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}
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bCwId=true;
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unsigned ic0 = m_symbolsLength * 4 * m_nsps;
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unsigned j(0);
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while (samples != end) {
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j = (m_ic - ic0)/m_nspd + 1; // symbol of this sample
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bool level {bool (icw[j])};
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m_phi += m_dphi;
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if (m_phi > m_twoPi) m_phi -= m_twoPi;
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qint16 sample=0;
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float amp=32767.0;
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float x=0;
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if(m_ramp!=0) {
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x=qSin(float(m_phi));
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if(SOFT_KEYING) {
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amp=qAbs(qint32(m_ramp));
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if(amp>32767.0) amp=32767.0;
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}
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sample=round(amp*x);
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}
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if(m_bFastMode) {
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sample=0;
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if(level) sample=32767.0*x;
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}
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if (int (j) <= icw[0] && j < NUM_CW_SYMBOLS) { // stop condition
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samples = load (postProcessSample (sample), samples);
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++framesGenerated;
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++m_ic;
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} else {
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Q_EMIT stateChanged ((m_state = Idle));
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return framesGenerated * bytesPerFrame ();
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}
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// adjust ramp
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if ((m_ramp != 0 && m_ramp != std::numeric_limits<qint16>::min ()) || level != m_cwLevel) {
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// either ramp has terminated at max/min or direction has changed
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m_ramp += RAMP_INCREMENT; // ramp
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}
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m_cwLevel = level;
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}
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return framesGenerated * bytesPerFrame ();
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} else {
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bCwId=false;
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} //End of code for CW ID
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double const baud (12000.0 / m_nsps);
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// fade out parameters (no fade out for tuning)
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unsigned int i0,i1;
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if(m_tuning) {
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i1 = i0 = (m_bFastMode ? 999999 : 9999) * m_nsps;
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} else {
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i0=(m_symbolsLength - 0.017) * 4.0 * m_nsps;
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i1= m_symbolsLength * 4.0 * m_nsps;
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}
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if(m_bFastMode and !m_tuning) {
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i1=m_TRperiod*48000 - 24000;
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i0=i1-816;
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}
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qint16 sample;
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for (unsigned i = 0; i < numFrames && m_ic <= i1; ++i) {
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isym=0;
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if(!m_tuning and m_TRperiod!=3) isym=m_ic / (4.0 * m_nsps); //Actual
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//fsample=48000
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if(m_bFastMode) isym=isym%m_symbolsLength;
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if (isym != m_isym0 || m_frequency != m_frequency0) {
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if(itone[0]>=100) {
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m_toneFrequency0=itone[0];
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} else {
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if(m_toneSpacing==0.0) {
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m_toneFrequency0=m_frequency + itone[isym]*baud;
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} else {
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m_toneFrequency0=m_frequency + itone[isym]*m_toneSpacing;
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}
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}
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// qDebug() << "Mod B" << m_bFastMode << m_ic << numFrames << isym << itone[isym]
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// << m_toneFrequency0 << m_nsps;
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m_dphi = m_twoPi * m_toneFrequency0 / m_frameRate;
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m_isym0 = isym;
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m_frequency0 = m_frequency; //???
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}
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int j=m_ic/480;
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if(m_fSpread>0.0 and j!=m_j0) {
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float x1=(float)qrand()/RAND_MAX;
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float x2=(float)qrand()/RAND_MAX;
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toneFrequency = m_toneFrequency0 + 0.5*m_fSpread*(x1+x2-1.0);
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m_dphi = m_twoPi * toneFrequency / m_frameRate;
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m_j0=j;
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}
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m_phi += m_dphi;
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if (m_phi > m_twoPi) m_phi -= m_twoPi;
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if (m_ic > i0) m_amp = 0.98 * m_amp;
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if (m_ic > i1) m_amp = 0.0;
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sample=qRound(m_amp*qSin(m_phi));
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if(m_toneSpacing < 0) sample=qRound(m_amp*foxcom_.wave[m_ic]);
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// if(m_ic < 100) qDebug() << "Mod C" << m_ic << m_amp << foxcom_.wave[m_ic] << sample;
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samples = load(postProcessSample(sample), samples);
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++framesGenerated;
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++m_ic;
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}
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if (m_amp == 0.0) { // TODO G4WJS: compare double with zero might not be wise
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if (icw[0] == 0) {
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// no CW ID to send
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Q_EMIT stateChanged ((m_state = Idle));
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return framesGenerated * bytesPerFrame ();
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}
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m_phi = 0.0;
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}
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m_frequency0 = m_frequency;
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// done for this chunk - continue on next call
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return framesGenerated * bytesPerFrame ();
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}
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// fall through
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case Idle:
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break;
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}
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Q_ASSERT (Idle == m_state);
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return 0;
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}
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qint16 Modulator::postProcessSample (qint16 sample) const
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{
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if (m_addNoise) { // Test frame, we'll add noise
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qint32 s = m_fac * (gran () + sample * m_snr / 32768.0);
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if (s > std::numeric_limits<qint16>::max ()) {
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s = std::numeric_limits<qint16>::max ();
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}
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if (s < std::numeric_limits<qint16>::min ()) {
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s = std::numeric_limits<qint16>::min ();
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}
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sample = s;
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}
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return sample;
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}
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